Panoramic camera.



PATBNTED PEB. 6, 190e. J. A. BRIBD.

^ PANORAMIC CAMERA.

APPLICATION FILED AUG. 9, 1904.

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7%@ M, www@ of h lll PATENTED PEB. 6, 1906.

J. A. BRIED.

PANORAMIC CAMERA.

APPLIGATION FILED AUG. 9, 1904.

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mhmmm 'P (Witwe/aow through'the rollers. Fig." 3 isa side eleva UNITED STATES FATENT OFFICE.

JULIEN A'. BRIED, OF SAN FRANCISCO, CALIFORNIA.

PANORAMIC CAMERA.

Specification of Letters `Patent. p

Patented Feb. 6, 1906.

Application filed August 9, 1904. Serial Nol 220,126.

To all whom it may concern: A Be it known that I, JULIEN A. BRIED, a citizen of the United States, residing at San Francisco, in the county of San Francisco and State of California, have invented certain new and useful Improvements in Panoramic Cameras, of which the following is a'` specification. y

My invention relates to improvements in panoramic photograph-cameras of the revolving type, the object of my invention being to provide an apparatus for panoramic "which will a mit o Vtaken of the surrounding objects through a photography by which there may be obtained a v sharfply defined picture and`A a single negative being complete circle. v

`The resent apparatus has been invented by me or the urpose of `taking negatives to be subse uent y greatly enlarged by a process .whic forms the subject of a separate application, filed June 8, 1904,'Serial No.

211,629. By means of said processnegatives can be successfully enlarged to as much' as fifty times their original size'.

By my present invention I have succeeded in taking panoramic views b f an apparatus in which the movement of tliev film is at all times exactly e ual to that of the image, however much t Other improvements will appear in the further description of the invention.

In theaccompanying drawings, Fi re 1 is a perspective viewof a camera em odying invention. Fig. 2 is a horizontal section tion, and Fig. 4 is a plan view, of a modified form of the invention.-

Referring to the drawings, R represents a tripod-stand supporting a stationary annular table D and having a central pivot-pin K. Upon said pin K is pivoted the cross-bar a of a frame comprisi side guides N and an annular rim M. Sai frame is caused to rotate about the annular table D by any suitable mechanism, and fory the purpose ofillustration I have herein shown it as rotated b means of a gear-wheel b,'driv en by a cra X and meshing with internal gear-teeth c, formed on the inner side of the rim M.

0 is the front section of the camera, which is adjustably mounted by a rack d and pinions e (only one here shown) upon the guides N, so that it can be accurate y adjusted in such position that the optical center of the e focal length may be va.y

lens L is immediately over the pivot K. P represents the rear section of the camera, which is adjusted to obtain the proper focus upon the film by means of pinion-s f upon said racks d. Said pii'iions e and f are, operated by hand-Wheels Q.

F is the film-holder, in the front'wall of which is a narrow aperture U, through which the light is admitted from the lens. Said light so admitted falls onto a film H, which passes in front of a roller A and is fed from a su ply-spool G onto a Winding-spool I.

he VrollerA isA driven by means of mitergears E, meshing with each other, one of which is on the lower end of the shaft of said roller A and the other is on a horizontal shaft l h, journaled in bearin s W, depending from thebottom of the hol er F, said shaft h carrying a disk C, having a milled periphery engaging the annular table D. This shaft h 1s accurately mounted with reference to the roller A, so that the line of rollingof the disk C is exactly under that part of the film H which lies m-the plane through the shaft of the diameters of the glears E being equal the diameter of the disk is made e ual tothat of the roller A, and it then res ts that the velocity-backward of that small portion of the said roller A and the center of the lens, and

film which is op osite to the aperture U, im-

parted thereto y its motion around the roller A, is equal to its `velocity forward due to the motion of the camera as a whole, and

vtherefore said film is stationary With reference to the field at the time that it is exposed,

so that a well-defined negative can be taken thereon. Moreover, by this construction this result of obtainin a stationary exposed portion ofthe film be achieved Whatever disk C. By this construction, therefore, thereA is obtained an absolutelystationary exposure of the film, permitting of obtaining an accurate ima e of the field on the film. One o the greatest difficulties in obtaining negatives which can be enlarged many times- IOO IIO

i A l changes -be made in focusing the camera, for v that is, in obtaining` very sharp negativeshas been the difficulty of preserving a perfectly smooth surface in the film while moving it, especially with rapidity. In the rubber-neck class of camera, in which the film is bent concavely into an arc of a circle and a tube excluding the light, except from a small portion of the film, rs caused to swing over said film, this difficulty has also been encountered on account of the difficulty of drawing such film into a concave form in the concave holder, so that it will not buckle. To obtain a smooth surface in a revolving camera as heretofore constructed was difficult on account of the vibration imparted to the film by the rapid motion. I overcome this diicultyby supportinigrthe film against the roller A and giving it a m convex support thereon by winding it from the supply-s ool G, where the spring T acts as a brake. t is true that this construction results in the film beinT of convex form on the side exposed to the light; but this objection is only theoretical and of no practical importance in the present construction on account of the fact that the aperture U is so small (about one-tenth of the diameter of the roller A) and the portion of the film exposed to the light is so narrow that for all practical purposes the portion of the film exposed to the light is a plane surface. The film now lies perfectly smooth and flat upon the roller, and a smooth surface being presented to the rays of light a sharp negative is obtained. The slack film after passin the driving-rollers A and B is taken up on t 1e receiving-spool I in the following manner: A supplemental driving roller B has the ends of its shaft mounted in arms k,which swing from the center of the shaft of the spool I and are pressed toward the roller A by the springs Z. Both the supplementary driving-roller B and the roller A are rubber ory frictionally surfaced. The film passes between said rollers A and B, and the roller B being thus held firmly up against said film by the pressure of the springs Z is rotated from the roller A. It thus imparts rotation to the friction-wheels J, which are mounted in said arms 7c, and

'these wheels again impart rotation to the spool I, winding up the film on said spool. The dimensions of the roller B, the wheels J, and the flanges of the spool I are such that said spool I 1s driven somewhat faster than would take up the film H as' it arrives from the roller A, and this insures all the slack film being taken up, after which the frictionwheels J will slip.

S is a slot in the frame of the holder of the camera, through which a slide is placed to shut olf the light when removin the holder. The film can be removed from t e holder by opening the door 'm at the rear. The arrow V shows the direction of motion of the camera with this arrangement of gears and rolls.

In Figs. 3 and 4 is illustrated a modified form oflmy invention. In this modification, V represents a fixed shaft upon which is secured a bracket Z, having a long vertical bearing on said shaft and carrying at its lower end a Worm-wheel M, driven by a worm b', operated by a handle X. This bracket carries the side pieces N', on which are mounted in like manner as in the first modification the front and rear sections of the camera. The construction of the camera is the same as in the first modification; but the milled wheel C, instead of being driven by contact with the annular table D, as in the first modification, is now driven by a cone D on a shaft n, having at its inner end a bevel-pinion Y meshing with a fixed bevel or crown wheel Y, fixedly secured upon the shaft K. It will be seen that as the bracket revolves in one direction the cone revolves in the opposite direction on account of the engagement of the bevel-pinion Y with a bevelgear Y. To insure that the film shall travel backward in front of the aperture U as fast as it travels forward, due to the motion of the camera as a whole, it is only necessary to give the proper dimensions to the diameter of the roller A, gears E, disk C, angle of the cone D, and diameters of the pinion Y and gear Y. Smoother action is obtained by making gears Y and Y with a frictional surface instead of teeth. In the resent instance the roller A, gears E, and dis C are given the same dimensions as before, and the required velocity is obtained by giving the pro er dimensions to the other named elements. twill be seen that the construction of the modification operates on the same principle as that of the form first described. The cone may be considered as a sector of the table rolled up.

1. In an apparatus of the character described, the combination of a camera-frame, a lens, means for rotating the frame about a vertical axis through the o tical center of the lens, a film-support, mec ianism for moving a film over said support in the direction opposite to its movement due to the rotation of the frame about said vertical axis, a revolving wheel carried on the camera-frame and operatively connected with said mech anism to move the film backward, and an element with which said wheel enga es to impart revolution to said wheel from t e rotation of the camera-frame, the speed so imparted to said wheel varying directly as the distance from said vertical axis, substantially as described. i f

2. In an apparatus of the character described, the combination of a cameraframe, a lens, means for rotating said frame about a vertical axis through the optical center ofthe lens, a film-support, means for moving aA film over said support, in the direction opposite to its movement due to the rotation of the frame about said vertical axis, a Wheel for IOO IIO

a surfaoe el revolution about a operating said moving film, and an element iwving a surface With Which said wheel is in trici-finaal contact, said surface being one of revolution about a point in said vertical axis, wl'iereby the velocity of said wheel varies as its distance from the vertical-axis, substanliiallj,T ys described.

Il ln an apparatusof the character described, the combination of a camera-fran1e, a lens, meansfor rotating the frame about a vertical axis through the optical center of the lens, a Hlm-support, means for moving a film in the direction opposite to its motion due to the rotation of the frame about said vertical axis, said means comprising a vertical shaft, a horizontal shaft, bevel-gears on said shafts meshing with each. other, a friction-disk on said .horizontal shaft, and an element having oint in said vertioal as center, with w lich element ltioiwlisli has irictional engagement to rotate the disk. by the revolution of the cani eradraine, substantially as described.

JL. .ln an apparatus of the character described, the combination of a camera-frame, a lens, means for rotating the frame about a teal. axis through the optical center of the lons, .a liiirrholder carried on Said frame, supn ply and Winding rollers in said lrmholder, a roller over which said `lilin is passed, means tor d riving said latter roller, including a horimental shaft, bevel-gears on said shaft and on the shaft ot the roller, a disk on said horizon-- shaft, and an element having a surface oi elution about a point in said vertical axis "enter with Which said disk has engagent, to revolve the disk as the can1era-lrame Afotates, substantially as descrlbed.

5. In an apparatus oi' the character described, the combination oi a camera-traine, a lens means for Jtotating the traine about a vertical axis through the optical center ot' the lens, a filin-holderj supply and Winding spools therein, a roller over which said iln passes, a pressure-roller, resilient means for pressinl` said pressure-roller against said iirst roller, and means operated b the revolution of the camera-frame for revo ving said first roller in a direction so that the film travels thereover in the direction opposite to its motion due to the carnerasframe as a Whole, substantially as described.

o. InV an apparatus of the character described, Athe combination of a ca1nerafrarne lastingJ n ie about a vertical axis through i itat seater o' the lens, a lilin-liotder traine, toller in said u tover Wisch the lilo, passes and whose'axis is in the piane of the middle oli' the aperture and lens, means for revolving the roller in a direction so that the film passes thereover in a direction opposite to that due to the motion. of the oaineraranie, supply and wiiu ng spools, and. a braking device for the snp 13o-spool whereby the film is mainn tained. tight over the roller, substantially as described.,

ln Witness whereof l have hereunto set my' hand is pisseuse ot' two subscribing Witnessea ansias A. Lestat).

an aoerture, a lens, means for rotat- 

